Layman's definition of CM and QM?

In summary, a classical theory is based on the assumption that the "state of the world" is given by a real structure which determines uniquely all possible results of measurements one could imagine - this state of the world can then evolve according to a deterministic, or a stochastic evolution equation. A quantum theory, on the other hand, does not assume this, and instead has the superposition principle - which makes it impossible for the state of the system (in general) to determine the outcome of an experiment.
  • #1
Physics101
22
0
As a layman's definition, would it be sufficient to define CM and QM differences as follows?

CM: Macroscopic observations (theories) closely resembling the more accurate results that can be derived through QM.

QM: Probability-based observations (theory) that more accurately describe the underlying reality, more applicable when applied to microscopic (or quantum) levels.

Also, what of other approaches like Stochastic Electrodynamics (SED) that seems to combine the both disciplines? How realistic are such theories and do they hold any promise to supercede CM and QM?

Thanks in advance for your replies.
 
Physics news on Phys.org
  • #2
Physics101 said:
As a layman's definition, would it be sufficient to define CM and QM differences as follows?
CM: Macroscopic observations (theories) closely resembling the more accurate results that can be derived through QM.
QM: Probability-based observations (theory) that more accurately describe the underlying reality, more applicable when applied to microscopic (or quantum) levels.

It is not so much the probabilistic aspect or accuracy that tell us what is a quantum theory. After all, one can construct totally WRONG quantum theories too.

I would say that a classical theory has as its basic idea the fact that the "state of the world" is given by a real structure which determines - in principle - uniquely all possible results of measurements one could imagine. This state of the world can then evolve according to a deterministic, or a stochastic evolution equation, but at any instant, there *IS* a unique state of the world determining all outcomes.

A quantum theory ALSO has as a basic idea that the "state of the world" is given by a (complex) structure, but it DOES NOT DETERMINE all possible results of measurements one could imagine. This state of the world can evolve deterministically (Schroedinger equation) - one could modify it eventually into a stochastic evolution, but that's not standard QM.
Moreover, in a quantum theory, there is the superposition principle: if state A of the world is possible, and state B of the world is possible, then there exists a state a A + b B of the world.
This superposition principle is what makes it impossible for the state of the system (in general) to determine the outcome of an experiment.
If state A contains "the ball is here" and state B is "the ball is at my home", then the state aA + bB has no precise answer to the question: where is my ball ? While a classical theory ALWAYS has a unique answer to that question.
 
  • #3
Thats for your reply, vanesch. That certainly helps me better grasp the difference between the two.
 

What is CM and QM?

CM and QM are abbreviations for classical mechanics and quantum mechanics, respectively. These are two distinct branches of physics that study the behavior of matter and energy at different scales.

What is the difference between CM and QM?

The main difference between CM and QM lies in their approach to describing the behavior of particles and systems. CM is based on classical laws of motion and can accurately describe the behavior of macroscopic objects, while QM uses probabilistic equations and is used to describe the behavior of subatomic particles.

What are the applications of CM and QM?

CM is used in many fields of engineering, such as designing buildings and machines. It is also used in astronomy to predict the movement of planets and other objects in the universe. QM has applications in fields such as electronics, materials science, and particle physics.

Can CM and QM be unified?

There have been efforts to unify CM and QM into a single theory, but so far, no successful theory has been developed. Some physicists believe that a unified theory, known as quantum gravity, may exist and would explain the behavior of particles at both the macroscopic and subatomic levels.

What are the key concepts in CM and QM?

In CM, key concepts include Newton's laws of motion, conservation of energy and momentum, and the concept of force. In QM, key concepts include wave-particle duality, uncertainty principle, and superposition. Both branches also involve the use of mathematical equations and models to describe the behavior of particles and systems.

Similar threads

I Looking For Help Understanding Bell's Theorem, Hidden Variables & QM
    • Quantum Physics
3
Replies
80
Views
4K
B Some questions about "superdeterminism" and Bell's Theorem
    • Quantum Physics
3
Replies
75
Views
8K
I Einstein's View of Quantum Mechanics
    • Quantum Physics
2
Replies
43
Views
6K
I 'Formulations' of Physical Theories: Overview?
    • Other Physics Topics
Replies
2
Views
13K
Einstein's later thoughts on EPR
    • Quantum Physics
Replies
9
Views
2K
Requirements for LR model - please explain.
    • Quantum Physics
Replies
1
Views
2K
I Does Decoherence get rid of all Quantumness?
    • Quantum Interpretations and Foundations
Replies
7
Views
1K
Nature of Time in Physics: A Question
    • Quantum Physics
Replies
19
Views
3K
Finding Einstein’s Hidden Variable
    • Quantum Physics
2
Replies
39
Views
9K
A crank's idea about Uncertainty Principle
    • Quantum Physics
Replies
27
Views
5K

Hot Threads

Recent Insights

Back
Top